Instrumentation at the Subaru Telescope - next 10 years - Naruhisa Takato and Tomonori Usuda (Subaru...
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Transcript of Instrumentation at the Subaru Telescope - next 10 years - Naruhisa Takato and Tomonori Usuda (Subaru...
Instrumentation at the Subaru Telescope
- next 10 years -
Naruhisa Takato and Tomonori Usuda(Subaru Telescope)
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Optical InstrumentsSuprime-Cam : FOV=34’x27’, Ten 2k x 4k CCDs w/ 0.2”/pixel• 10 Filters: B, V, Rc, Ic, g’, r’, i’, z’, NB711, NB816, NB921, etc.• Since 2008, Hamamatsu Fully-Depleterd CCDs (>40% @1μm)
HDS : Two 2k x 4k CCDs w/ 0.14”/pixel, Slit length=2~60”• Slit width=0.2~4”, slit-width × R = 36,000 (e.g. R=100,000 @
0.38”)• Two Image Rotator: Blue & Red optimized, I2 cell since 2006
FOCAS : FOV=φ6’, Two 2k x 4k CCDs w/ 0.1”/pixel• 8 grisms, Slit width=0.2~2”, R=250~7,500 w/ 0.4”• 10 MOS mask w/ ~50 slits (max 100), FDCCD in June 2010• Linear & Circular Polarimetry for long slit spg & imaging
PI: Kyoto 3DII• Fabry-Perot : FOV=1.9’x1.9’ w/ 0.056”/pixel, R=400 & 7,000• IFS w/ MLA : FOV=3.4”x3.4” w/ 0.094”/pixel, R~1,200l 3
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Infrared InstrumentsMOIRCS : λ=0.9~2.5μm, Two HAWAII-2 (0.12”/pix, FOV=4’x7’) • 3 grisms (R=600~1,600 w/ 0.5” slit) & 2 VPH (R=3,000 for J,
H)• 18 MOS mask w/ ~50 slits
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Infrared InstrumentsMOIRCS : λ=0.9~2.5μm, Two HAWAII-2 (0.12”/pix,FOV=4’x7’) • 3 grisms (R=600~1,600 w/ 0.5” slit) & 2 VPH (R=3,000 for J,H)• 18 MOS mask w/ ~50 slits
IRCS : λ=0.9~5.5μm, 1k x 1k ALADDIN III (12, 20, 52 mas/pix) • 18 Filters: z,J,H,H+K’,K’,K,L’,M’, CH4, [FeII], H2, Br, PAH etc.• R=100~2,000 w/ grisms, R~20,000 w/ Echelle (wide λcoverag
e)
COMICS : λ=8~25μm, Six 320x240 Si:As (cf. 5 for spg)• 0.13”/pix, FOV=42”x32”, max 60” chopping• 15 Filters: 6 N-band cont, 5 N-band NB, 4 Q-band cont• R=250~11000 w/ 0.33” slit with 5 gratings
PI: HiCIAO : λ=0.85~2.5μm, HAWAII-2RG (0.01”/pixel)• FOV=20”x10” (PDI), 5”x5” (SDI), ADI• 4 occulting masks: 0.2”, 0.3”, 0.4”, 0.6” ~10E-5.5 5
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Nas188 AO
LGS/AO188
Nasmyth-IR focus Curvature sensors w/ 188 act.LGS output~6.5W, R~10.7 mag
LGS/AO188 (2008~)
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3rd Generation InstrumentsFMOS (2010~): FOV=φ30’ , λ=0.9~1.8μm, 400 x φ1.2” fiber• Cooled (T=-55C) two spectrographs w/ OH supplession• R=500 (1 time exp) & 2,200 (4 times exp)
IRCS-HRU (from 2011): Additional High Spect. Resolution Unit• λ=1.4~5.5μm, ORION 2k x 2k InSb, w/ IR gas cell (NH3) • R~70,000 w/ Si Immersion Grating (n~3.4)
Subaru Coronagraphic ExAO (from 2010)• PIAA Coronagraph, Coronagraphic WFS, MEMS(1024) <10E-7
Hyper Suprime Cam (from 2011)• FOV=φ1.5 deg , 116 2k x 4k FDCCD, λ=0.4~1.1μm• 6 Filters (φ60cm ): Broad (g’, r’, i’, etc.), NarrowIRDI (IR Doppler Instrument) (from 2013): Funded in FY2010• λ=1.1~1.7μm, 2 x H2RG, w/ Frequency Comb (~1m/s) • R~70,000 w/ ZnSe Imm. Grating (n~2.4), Fiber fed
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3rd Generation InstrumentsFMOS (2010~): FOV=φ30’ , λ=0.9~1.8μm, 400 x φ1.2” fiber• Cooled (T=-55C) two spectrographs w/ OH supplession• R=500 (1 time exp) & 2,200 (4 times exp)
IRCS-HRU (2012~): Additional High Spect. Resolution Unit• λ=1.4~5.5μm, ORION 2k x 2k InSb, w/ IR gas cell (NH3) • R~70,000 w/ Si Immersion Grating (n~3.4)
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IRCS HRU (High spectral Resolution Unit)
New HRU
LGS/AO188
IRCS
• Compact & Add-on Unit• First @North Hemisphere
• Only 1 w/ LGS (& IR-WFS)12
Si immersion Grating
Orion 2k x 2k InSb
500mm
Cross-Disperser
Slit
Collimator Camera Lenses
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3rd Generation InstrumentsFMOS (from 2010): FOV=30’ , λ=0.9~1.8μm, 400 x 1.2”fiber• Cooled (T=-55C) two spectrographs w/ OH supplession• R=500 (1 time exp) & 2,200 (4 times exp)
IRCS-HRU (from 2011): Additional High Spect. Resolution Unit• λ=1.4~5.5μm, ORION 2k x 2k InSb, w/ IR gas cell (NH3) • R=73,000 w/ Si Immersion Grating (n~3.4)
Subaru Coronagraphic ExAO (2010~)• PIAA Coronagraph, Coronagraphic WFS, MEMS(1024) <10E-7
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3rd Generation InstrumentsFMOS (from 2010): FOV=30’ , =0.9~1.8m, 400 x 1.2” fiber• Cooled (T=-55C) two spectrographs w/ OH supplession• R=500 (1 time exp) & 2,200 (4 times exp)
IRCS-HRU (from 2011): Additional High Spect. Resolution Unit• =1.4~5.5m, ORION 2k x 2k InSb, w/ IR gas cell (NH3) • R=73,000 w/ Si Immersion Grating (n~3.4)
Subaru Coronagraphic ExAO (from 2010)• PIAA Coronagraph, Coronagraphic WFS, MEMS(1024) <10E-7
Hyper Suprime Cam (from 2011) w/ ASIAA, Princeton, etc.• FOV= φ 1.5 deg, 116 2k x 4k FDCCD, λ=0.4~1.1μm• 6 Filters (φ 60cm): Broad (g’, r’, i’, etc.), Narrow
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Hyper Suprime Cam (HSC)
CorrectorLens tube
ADC
FilterInR
Hexapods
Filter
ShutterInR
CCD
1 meter
Designed IQ < 0.2 arcsecTotal FWHM ~0.32 arcsec
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3rd Generation InstrumentsFMOS (2010~): FOV=φ30’ , =0.9~1.8m, 400 x φ1.2”fiber• Cooled (T=-55C) two spectrographs w/ OH supplession• R=500 (1 time exp) & 2,200 (4 times exp)
IRCS-HRU (2012~): Additional High Spect. Resolution Unit• λ=1.4~5.5μm, ORION 2k x 2k InSb, w/ IR gas cell (NH3) • R~70,000 w/ Si Immersion Grating (n~3.4)
Subaru Coronagraphic ExAO (2010~)• PIAA Coronagraph, Coronagraphic WFS, MEMS(1024) <10E-7
Hyper Suprime Cam (from 2011)• FOV=φ1.5 deg , 116 2k x 4k FDCCD, λ=0.4~1.1μm• 6 Filters (φ60cm ): Broad (g’, r’, i’, etc.), NarrowIRD (IR Doppler Instrument) (2013~): Funded in FY2010• λ=1.1~1.7μm, 2 x H2RG, w/ Frequency Comb (~1m/s) • R=70,000 w/ ZnSe Imm. Grating (n~2.4), Fiber fed
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IR Doppler Instrument (IRDI)
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Collimator
Camera Lens(J)
Immersion Gr
~50 cm
HAWAII-2RGHDSIRDICamera Lens(H)
1 Earth-mass
Optical Design
Frequency Comb
Wavelength (μm)
Inte
nsi
ty
1.5~1.6μmFrequency
Frequency Comb
2nd Gen Instruments (2005~2009)
• PF
• Nas
• Cass
Optical NIR (1~5μm) MIR (10~20μm)
Suprime-Cam (34’x27’)
HDS
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CCD upgraded (2008)
(4’x7’ / 2005)
LGS/AO188: IRCS (2008) & (HiCIAO in 2009)
FOCAS (Kyoto 3DII) (CIAO) MOIRCS COMICS
3rd Gen Instruments (2010~)
• PF
• Nas
• Cass
Optical NIR (1~5μm) MIR (10~20μm)
FOCAS (Kyoto 3DII) MOIRCS COMICS
HDS
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FMOS (2010)
(φ30’ / JH)Hyper S-Cam(φ1.5 deg / 2011~)
LGS/AO188: with IRCS, (HiCIAO), (K-3DII), SCExAO, IRDI
CCD upgraded (2010)
Image Slicer mode
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Future InstrumentsRAVEN (from 2013): MOAO Demonstrator with IRCS @NsIR • Collaboration w/ UVic & HIA since 2009• 3 WFS for NGS (FOV=φ2’ , 2 DMs for Science targets )
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RAVEN: MOAO (Multi Object AO) Faint Objects
Guide Stars
Telescope
WFSs
DMs
Instruments
Tomographic wavefront reconstruction
Open-loop control
Key Technologies
FOV:-patrol: ~arcmin-unit: ~arcsec
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Future Instruments (not fully funded)RAVEN (from 2013): MOAO Demonstrator with IRCS @NsIR • Collaboration w/ UVic & HIA since 2009• 3 WFS for NGS (FOV=φ2’ , 2 DMs for Science targets
PFS (from 201x): WFMOS-like Multi-object spectrograph @PF• SuMIRe (Subaru Measurements of Images and Redshifts) led b
y U. Tokyo IPMU for HSC and PFS: partially funded (~$15M)• FOV~φ1.5 deg , 2000 - 4000 fiber, R=1,000~20,000, λ=0.4~
1.1μm• Waiting for the community approval• Specifications will be determined soon.
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Subaru instrumentation
S-Cam
FOCASHDSKyoto3D
IRCSMOIRCSFMOS
CISCO/OHS
CIAOHiCIAOSCExAO
COMICS
HSCPFS
AO36AO188/LGS
2000 2010 2020
?
w/AO188
IRCS-HDU
IRD (IDEAS)
RAVEN
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Possible PI-type Instruments
SWIIMS (2013?): IR MOS for TAO • FoV: 7’ x 3.5’ (=> 7.5’ x 7.5’)• 2-band simultaneously (0.9-1.4, 1.4-2.5um)
TAO-MIR (2013?): MIR imager/spectrograph for TAO• Field stacker (simultaneous imaging of two independent filed for accurate differential photometry)
SWIFT (from 201x): IFS w/image slicer @Cs• Optimized for 0.7-1.0 um
MIR-HDS (from 201x): • Ge-immersion grating
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summary
• Strengthen Subaru’s advantage
- wide-field capability
- good image quality
• Balancing between survey/narrow science instruments and general purpose instruments.
• Test-bed for future development (e.g. TMT instruments)
• 観測所として推進するべき方向は何か - 広視野 & 高解像度? - 多様なサイエンス要求への対応 - サーベイ型の使い方をどこまで許容するか - 幅広いニーズへの対応、萌芽的研究をすばる でやるには - 観測所の強みを生かすには - 将来につながる種を育てるには - TMT• すばるの開発体制 -ハワイでどの規模までやるか -三鷹の体制 -大学との連携 -海外との連携 - TMT との関係• 装置開発予算の獲得方法 -大型装置 -要素技術開発 -小型装置